This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors are detected through a timing error detection strategy, consisting of a soft edge flip-flop combined with a transition detector and an error latch. The time borrowing realized through soft edge flipflops allows data to propagate after the clock edge (timing error masking). Thus operation at the point-of-first-failure is possible, effectively eliminating any timing margin. At the same time, time borrowing events are flagged which prevents corrupting the system state and allows dynamic voltage scaling. The error-aware microcontroller was implemented in a 40nm CMOS process and realizes ultra-low voltage operation down to 0.29V at 5MHz and 12.90...
This paper presents iRazor, a lightweight error detection and correction approach, to suppress the c...
Subthreshold voltage operation enables digital systems to operate at ultra-low energy levels. Howeve...
Chip manufacturers define voltage margins on top of the “best-case” operational voltage of their chi...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
This work presents a near-threshold operating voltage timing error detecting 32-bit microcontroller ...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
Abstract: This paper presents the first known timing-error detection (TED) microprocessor able to op...
This paper presents the first known timing-error detection (TED) microprocessor able to operate in s...
Microelectronic scaling has entered into the nanoscale era with tremendous capacity and performance ...
Razor [1-3] is a hybrid technique for dynamic detection and correction of timing errors. A combinati...
Low-power consumption has become an important aspect of processors and systems design. Many techniqu...
To minimize energy consumption of a digital circuit, logic can be operated at sub- or near-threshold...
To minimize energy consumption of a digital circuit, logic can be operated at sub- or near-threshold...
Increasing process variations and sensitivity to operating conditions are making the design of tradi...
This paper presents iRazor, a lightweight error detection and correction approach, to suppress the c...
Subthreshold voltage operation enables digital systems to operate at ultra-low energy levels. Howeve...
Chip manufacturers define voltage margins on top of the “best-case” operational voltage of their chi...
This paper presents a timing error masking-aware ARM Cortex M0 microcontroller system. Timing errors...
This paper discusses a timing error masking-aware ARM Cortex M0 microcontroller system. Through in-p...
This work presents a near-threshold operating voltage timing error detecting 32-bit microcontroller ...
Near-threshold voltage (NTV) operation has the potential to improve the energy efficiency of digital...
Abstract: This paper presents the first known timing-error detection (TED) microprocessor able to op...
This paper presents the first known timing-error detection (TED) microprocessor able to operate in s...
Microelectronic scaling has entered into the nanoscale era with tremendous capacity and performance ...
Razor [1-3] is a hybrid technique for dynamic detection and correction of timing errors. A combinati...
Low-power consumption has become an important aspect of processors and systems design. Many techniqu...
To minimize energy consumption of a digital circuit, logic can be operated at sub- or near-threshold...
To minimize energy consumption of a digital circuit, logic can be operated at sub- or near-threshold...
Increasing process variations and sensitivity to operating conditions are making the design of tradi...
This paper presents iRazor, a lightweight error detection and correction approach, to suppress the c...
Subthreshold voltage operation enables digital systems to operate at ultra-low energy levels. Howeve...
Chip manufacturers define voltage margins on top of the “best-case” operational voltage of their chi...